C. W. Hilbers scite author profile

The recommendations presented here are designed to support easier communication of NMR data and NMR structures of proteins and nucleic acids through unified nomenclature and reporting standards. Much of this document pertains to the reporting of data in journal articles; however, in the interest of the future development of structural biology, it is desirable that the bulk of the reported information be stored in computer-accessible form and be freely accessible to the scientific community in standardized formats for data exchange. These recommendations stem from an IUPAC-IUBMB-IUPAB inter-union venture with the direct involvement of ICSU and CODATA. The Task Group has reviewed previous formal recommendations and has extended them in the light of more recent developments in the field of biomolecular NMR spectroscopy. Drafts of the recommendations presented here have been examined critically by more than 50 specialists in the field and have gone through two rounds of extensive modification to incorporate suggestions and criticisms.

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Recommendations for the presentation of NMR structures of proteins and nucleic acids

Markley

Bax

Arata³

et al. 1998

Journal of Molecular Biology

296

217

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Markley

Bax

Arata³

et al. 1998

387

209

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Recommendations for the presentation of NMR structures of proteins and nucleic acids (IUPAC Recommendations 1998)

Markley¹,

Bax²,

Arata³

et al. 1998

263

180

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Proton nuclear magnetic resonance investigations of fraying in double-stranded d-ApTpGpCpApT in aqueous solution

Patel¹,

Hilbers²

1975

Biochemistry

147

102

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The chemical shifts and line widths of the Watson-Crick ring NH resonances of the self-complementary duplex of d-ApTpGpApT have been monitored at low ionic strength and in the presence of Mg ions at neutral pH in aqueous solution to determine the thermodynamic parameters associated with fraying (D. J. Patel (1974), Biochemistry 13, 2396) at the terminal and internal base pairs as a function of temperature and pH. From studies in H2O-MeOH (3:2), the fraying process persists down to approximately -20 degrees for the internal TA base pair and down to and probably beyond -30 degrees for the terminal AT base pair. The observed average chemical shift at each of these base pairs as a function of temperature suggests rapid exchange on the nuclear magnetic resonance (NMR) time scale between helix and coil (chemical shift separation of 3.2 ppm) and have been utilized to determine the dissociation constant at the terminal and internal base pairs. Comparison of the reaction enthalpies elucidated from the chemical shift parameters with those reported from optical studies suggests that the symmetry related internal TA base pairs break in a coupled manner at low ionic strength, with the coupling removed in the presence of Mg ions and high salt. By contrast, the symmetry related terminal AT base pairs break independently of each other in the absence and presence of Mg ions and high salt. The terminal base pair exhibits a Tm of 10-15 degrees lower than that of the internal base pair in the hexanucleotide, with divalent Mg ions and high salt stabilizing the double helix as reflected in the Tm values of these base pairs. The observed line width changes as a function of temperature provide an estimate of the exchange rate of the proton from the coil form with water. The exchange reaction from the coil state is base catalyzed with rate constants in the diffusion limit.

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C. W. Hilbers

Recommendations for the presentation of NMR structures of proteins and nucleic acids

Recommendations for the presentation of NMR structures of proteins and nucleic acids

Untitled

Recommendations for the presentation of NMR structures of proteins and nucleic acids (IUPAC Recommendations 1998)

Proton nuclear magnetic resonance investigations of fraying in double-stranded d-ApTpGpCpApT in aqueous solution

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